Water-Gas Shift and Steam Reforming Reactions Over a Rhodium Three-Way Catalyst

James C. Schlatter

doi:10.4271/780199

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Browse Publications Technical Papers 780199

1978-02-01

Water-Gas Shift and Steam Reforming Reactions Over a Rhodium Three-Way Catalyst 780199

Under oxygen-deficient (rich) conditions, a potential route to maintaining control of carbon monoxide (CO) and hydrocarbon (HC) emissions in a three-way system is through reactions of these pollutants with water vapor (H₂O). The importance of such reactions over supported rhodium was investigated in the laboratory. The water-gas shift (CO + H₂O) was insignificant. Steam reforming (HC + H₂O) took place, but gave CO as a product. Thus, if CO conversion governs the rich-side effectiveness of a three-way catalyst, steam reforming which converts HC to CO is unlikely, in itself, to improve three-way performance.

DOI: https://doi.org/10.4271/780199

Citation: Schlatter, J., "Water-Gas Shift and Steam Reforming Reactions Over a Rhodium Three-Way Catalyst," SAE Technical Paper 780199, 1978, https://doi.org/10.4271/780199.
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Author(s): James C. Schlatter

Affiliated: Physical Chemistry Dept. General Motors Research Lab. Warren, MI

Pages: 8

Event: 1978 Automotive Engineering Congress and Exposition

ISSN: 0148-7191

e-ISSN: 2688-3627

Related Topics:

Carbon monoxide

Three-way catalysts

Hydrocarbons

Emissions

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